Gankyrin plays an essential role in Ras-induced tumorigenesis through regulation of the RhoA/ROCK pathway in mammalian cells
Jiang-Hong Man, Bing Liang, Yue-Xi Gu, Tao Zhou, Ai-Ling Li, Tao Li, Bao-Feng Jin, Bing Bai, Hai-Ying Zhang, Wei-Na Zhang, Wei-Hua Li, Wei-Li Gong, Hui-Yan Li, Xue-Min Zhang
Jiang-Hong Man, Bing Liang, Yue-Xi Gu, Tao Zhou, Ai-Ling Li, Tao Li, Bao-Feng Jin, Bing Bai, Hai-Ying Zhang, Wei-Na Zhang, Wei-Hua Li, Wei-Li Gong, Hui-Yan Li, Xue-Min Zhang
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Research Article Oncology

Gankyrin plays an essential role in Ras-induced tumorigenesis through regulation of the RhoA/ROCK pathway in mammalian cells

Abstract

Activating mutations in Ras proteins are present in about 30% of human cancers. Despite tremendous progress in the study of Ras oncogenes, many aspects of the molecular mechanisms underlying Ras-induced tumorigenesis remain unknown. Through proteomics analysis, we previously found that the protein Gankyrin, a known oncoprotein in hepatocellular carcinoma, was upregulated during Ras-mediated transformation, although the functional consequences of this were not clear. Here we present evidence that Gankyrin plays an essential role in Ras-initiated tumorigenesis in mouse and human cells. We found that the increased Gankyrin present following Ras activation increased the interaction between the RhoA GTPase and its GDP dissociation inhibitor RhoGDI, which resulted in inhibition of the RhoA effector kinase Rho-associated coiled coil–containing protein kinase (ROCK). Importantly, Gankyrin-mediated ROCK inhibition led to prolonged Akt activation, a critical step in activated Ras–induced transformation and tumorigenesis. In addition, we found that Gankyrin is highly expressed in human lung cancers that have Ras mutations and that increased Gankyrin expression is required for the constitutive activation of Akt and tumorigenesis in these lung cancers. Our findings suggest that Gankyrin is a key regulator of Ras-mediated activation of Akt through inhibition of the downstream RhoA/ROCK pathway and thus plays an essential role in Ras-induced tumorigenesis.

Authors

Jiang-Hong Man, Bing Liang, Yue-Xi Gu, Tao Zhou, Ai-Ling Li, Tao Li, Bao-Feng Jin, Bing Bai, Hai-Ying Zhang, Wei-Na Zhang, Wei-Hua Li, Wei-Li Gong, Hui-Yan Li, Xue-Min Zhang

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Figure 1

Knockdown of Gankyrin blocks Ras-induced transformation and tumorigenesis.

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Knockdown of Gankyrin blocks Ras-induced transformation and tumorigenesi...
(A) NIH3T3 cells were stably transfected with H-Ras G12V or vector. The cell lysates were subjected to immunoblot analysis with the indicated antibody. The relative amount of Gankyrin normalized to GAPDH in NIH3T3 WT cells is designated as 1.0, and the numbers under the first row indicate the relative amount of Gankyrin for other cell lines. (B) Analysis of endogenous levels of Gankyrin by immunoblot in Ras-transformed NIH3T3 cells stably expressing Gankyrin shRNA or a scramble control (con). Two cell clones (#1 and #2) were detected following hygromycin selection. Total GAPDH serves as the loading control. (C) Analysis of the levels of cell growth in soft agar. Cells described in B were mixed with soft agar and seeded into 6-well plates, and then the number of foci was determined 2–3 weeks later. Data are expressed as the total number of colonies per plate. (D) The knocking down of Gankyrin expression reduces the ability of Ras G12V–transformed NIH3T3 cells to form tumors in the nude mice tumor growth assay. Nude mice (n = 8) were injected subcutaneously in each flank with 1 × 106 cells, and the tumor growth was monitored for 3–4 weeks by caliper measurements. (E and F) Reexpression of Gankyrin (human [h]) in Ras G12V–transformed NIH3T3 cells stably expressing Gankyrin shRNA by infection with a retroviral vector encoding human Gankyrin restored the tumorigenesis capability of the cells in the (E) soft agar assay and the (F) nude mice tumor growth assay. endo, endogenous. Data are shown as mean ± SD and are representative of 3 independent experiments.